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Proteomics as a tool for understanding molecular mechanisms of human diseases
Pospíšilová, Jana ; Petrák, Jiří (advisor) ; Šulc, Miroslav (referee) ; Kovářová, Hana (referee)
Proteomics is a set of analytical methods which enable qualitative and quantitative characterization of the proteome. Expression proteomics quantitatively compares proteomes of cells, tissues, body fluids or other biological materials to find differencies in protein expression and, based on these differencies, to describe the biological processes occuring in investigated organisms. An initial material for expression proteomic studies are complex mixtures containing thousands of proteins, which are analyzed using separation (electrophoretic and chromatographic) methods, and identified, possibly quantified using mass spectrometry. The aim of this Thesis is to demonstrate the application of the tools of expression proteomics in solving diverse challenges in biomedicine. We employed various proteomic approaches and tools for studying molecular mechanisms of human diseases using pacient biological samples, or a model organism and a cell culture. We were conducting three different research projects, namely: A quest for potencial molecular targets for selective elimination of TRAIL-resistant mantle cell lymphoma cells; Investigation of molecular mechanisms of heart failure using a rat model of the disease induced by volume overload; and Searching for diagnostically usable serum biomarkers of ovarian...
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Proteomic approaches in cancer biology
Lorková, Lucie ; Petrák, Jiří (advisor) ; Šulc, Miroslav (referee) ; Kovářová, Hana (referee)
Proteomics as a modern comprehensive approach to the analysis of proteomes was applied in three projects aimed at diagnosis and therapy of cancer. The aim of the first the project was to find a new diagnostic biomarker for ovarian cancer. Two different comparative proteomic approaches were used for comparative analysis of sera from patients diagnosed with ovarian cancer and from healthy age-matched women. We identified -1-antitrypsin with increased concentration in patien sera, and apolipoprotein A4 and retinol-binding protein 4 (RBP4) with significantly decreased concentration in patients. The significantly decerased concentration of RBP4 in patients is a new observation. We propose that RBP4 is either decreased in ovarian cancer patients as a result of its reduced production by ovary or it may reflect less specific systemic changes, for instance early onset of cancer cachexia. The second project was focused on gaining insight into the molecular mechanism of cytarabine resistance in mantle cell lymphoma (MCL). Proteomic and transcriptomic analyses of cytarabine-resistant cells revealed marked downregulation of deoxycytidine kinase (DCK) - a protein essential to intracellular activation of purine and pyrimidine nucleosides and their analogues including cytarabine. The cytarabine-resistant MCL...
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Proteomics as a tool for understanding molecular mechanisms of human diseases
Pospíšilová, Jana
Proteomics is a set of analytical methods which enable qualitative and quantitative characterization of the proteome. Expression proteomics quantitatively compares proteomes of cells, tissues, body fluids or other biological materials to find differencies in protein expression and, based on these differencies, to describe the biological processes occuring in investigated organisms. An initial material for expression proteomic studies are complex mixtures containing thousands of proteins, which are analyzed using separation (electrophoretic and chromatographic) methods, and identified, possibly quantified using mass spectrometry. The aim of this Thesis is to demonstrate the application of the tools of expression proteomics in solving diverse challenges in biomedicine. We employed various proteomic approaches and tools for studying molecular mechanisms of human diseases using pacient biological samples, or a model organism and a cell culture. We were conducting three different research projects, namely: A quest for potencial molecular targets for selective elimination of TRAIL-resistant mantle cell lymphoma cells; Investigation of molecular mechanisms of heart failure using a rat model of the disease induced by volume overload; and Searching for diagnostically usable serum biomarkers of ovarian...
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Immunoglobulin genes rearrangement and minimal residual disease monitoring in B-lymphoproliferative disease.
Lokvenc, Milan ; Kalinová, Markéta (advisor) ; Krulová, Magdaléna (referee)
Malignant lymphomas are tumors arising by clonal proliferation of lymphocytes stopped at a specific stage of differentiation. All tumor cells arising from the original clone thus share the same characteristics and that can be used in their detection. Finding a suitable molecular marker of tumor cells is an essential step not only to disease diagnosis, but also for monitoring of minimal residual disease. Minimal residual disease is defined as the subclinical disease level, which malignant cells are not detectable for conventional cytological methods during the therapy. These residual cells can cause relapse. The main goals of the diploma thesis are a detection and analysis of immunoglobulin genes rearrangement and chromosomal translocation t(11; 14) in the MTC region, and a development and optimization of RQ-PCR system for detection of minimal residual disease. Quantification of clonal rearrangement or chromosomal translocation allows the detection of minimal residual disease level in patients with malignant lymphomas. Clonal immunoglobulin genes rearrangement or characteristic chromosomal translocation were analyzed in 19 patients with malignant lymphomas. There were analyzed individual gene segments, N-region and combination variability in immunoglobulin genes rearrangement. There was developed...
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